DE882360C - Firing pin fuse for earth mines - Google Patents

Description

Firing pin detonators for underground mines It has already been proposed to use When touched, mines trigger a spring-loaded shock pin to use; by pressing down a spring-loaded cover that extends over it adjusted and then by its suspension against the detonator of the,: mine detonator is advanced. Here you have the firing pin with a metallic ribbon spring equipped, which is effective when a certain position of the firing pin is exceeded will.

The invention is directed to a firing pin detonator for earth mines, which is effective in the same way, but allows the mine in their Entire assembly including the shock bolt suspension made of non-metallic materials so that they are not tracked down by the presence of metal parts can be.

The striker pin igniter is characterized by the fact that with such a Manufacture of the mine in its entirety from non-metallic materials that Cushioning of the firing pin by non-metallic, resilient in their longitudinal direction Rods is caused, which is pivotably mounted on the detonator housing and (such in an inclined position are supported on an abutment of the Sab.lagbolzens that they are driven forward of the firing pin is pivoted downwards around its ends mounted on the detonator housing and are compressed over their length before they exceed their maximum Shortening drive the firing pin into the active position.

This design makes it possible to avoid a normal metallic spring, which has the disadvantage that it eliminates the presence of mine electric locators indicates.

In addition, this training causes the breakdown of the detonator always takes place in the same way and with the same force, independently of that, how the pressure on the bolt igniter works, whether slowly or quickly, immediately or indirectly via an outlet member.

According to a preferred embodiment according to the invention the suspension of the firing pin from three straight non-metallic spring bars, which are distributed around the firing pin at 12o ° and arranged at an angle to it.

As a result of the symmetry -the firing pin is not subjected to any lateral forces exposed and therefore always remains centric.

Each of the spring bars preferably consists of an elastic body, which is arranged between two fingers made of solid material, one of which is in an inner nit of the detonator housing and the other. the firing pin between two collars articulated.

These ends. the finger-replacing hinges, and their shape is so that it is on the one hand the groove in the detonator housing and on the other hand the through adjust the collar formed groove on the firing pin.

Either the detonator housing or the cover of the firing pin detonator can have at least one groove into which a nose of the other part engages. This groove is designed so that the cover ate at the same time as the axial movement performs a rotary movement in the housing.

The purpose of the rotation of the lid is to prevent its axial movement to. delay, @ that the. Triggering of the firing pin only a period of time after Effect of the external pressure takes place, for example by .das driving over a heavy vehicle. The delay of the Zündurig achieved in this way depends on the length and shape of the grooves that the noses accommodate.

The delay of the ignition is not absolutely necessary and depending on: the purpose of the mine, the detonator of the invention can also be more sensitive make so that the firing pin detonator comes into action without delay. One such training comes especially. for anti-personnel vehicles or for anti-wagons Mines in question, which are provided with release members connected to one another by cables so that several mines are detonated at the same time.

In the drawing, an embodiment of the invention is for example shown, namely Fig. i shows a land mine with a firing pin detonator according to the Invention in side view, partly in section, F.ig.2 a Uäm; gsschnitt by the Firing pin detonator on a larger scale and Figure 3 shows a cross section through it the line III-III in FIG. 2.

The firing pin detonator consists of a housing 2, its annular flange 3 rests on a set of ribs 4 of the mine housing i. The igniter housing 2 is finished with a cover 5, which is curved upwards and down into the Housing 2 @ can be pressed when on the plug 6 of the lid 7 of the mine. Pressure is applied. This lid is supported by another set of ribs 8 on an elastic ring 9, which in turn rests on the ribs 4.

As illustrated in FIG. 2, the firing pin detonator is located in the housing 2 the firing pin i o, its square upper end ii in a corresponding recess of. Lid 5 engages. Four lugs 12, 13, 14 and 15, which are firmly attached to the cover 5 are arranged, engage in corresponding V-shaped grooves 16, 17, i8 and ig in the Inner surfaces of the housing 2.

Three non-metallic spring bars 2o, or and 22 engage with their rounded ends 2 , 3 in an annular groove 2: 4 in the detonator housing 2, while their other ends 2i5 protrude between two annular flanges 26 and 27 of the firing pin and the cylindrical outer surface with a concave face encompass a ring ioa freely arranged on the firing pin. The ends 2.3 and 25 of the spring bars 2o, 21 and 22 are made of solid. Material (hard rubber, polyvinyl chloride, etc.) and are attached to the elastic body of the rods from both sides.

A ring 28 secured to the housing by means of non-metallic screws 29 2 is attached, prevents .that: the cover 5 is lifted from this, namely in that the noses n2, 13, 14 and 15 rest against the ring 28 from below.

According to the invention, the bolt detonator is secured by a safety plug 30 , which can be pulled out by means of a loop 3.1, for the transport and handling of the mine. The plug 3o prevents any rotation of the cover 5 and thus also its downward movement into the housing 2.

On the other hand, the firing pin lo has an additional backup Stop lug 32, which is in front of a straight groove 33 in the guide socket 3.4 of the housing must come for the firing pin so that it can slide down. This condition but is only fulfilled if each nose 12, 13, 14 and 15, the two arms of the associated V-shaped groove 16, 17, 18 and, i9, in which it engages, has passed through.

The elastic ring 9 shown in Fig. -I, which performs the task of Has a locking spring, prevents the firing pin detonator from becoming inactive when it has an effect a pressure below a certain size, e.g. B. if the landmine only then should explode if a heavy vehicle or a chariot over the Mine drives.

The firing pin detonator works as follows: Acts a sufficiently large one Pressure on the mine, so the cover 7 is pressed down. The Plug 6 against the cover 5 of the detonator housing 2 and press it down into Idas Housing inside. As a result of the engagement of the lugs 12, 13, 14 and 15 in the grooves 16, i7, 18 and i9 this movement takes place, the cover initially rotating at the same time in one and then in the other direction of rotation. The firing pin io moves while doing this with downwards, while the three standing at an angle of 1z! 00 to each other Spring bars 2109 21 and 22, which are initially directed obliquely upwards, pressed together "-earth. In doing so, they swing:; movements around their support point in the groove 2.4 in the housing 2 until they are perpendicular to the firing pin. When exceeded (In this position the spring bars 20, 21 and 22 then cause the further downward movement of the firing pin under sudden relaxation: the energy stored in them and hurl him against. the detonator 39 (Fig. i), which ignites immediately and that Fire at the explosive charge that transfers mine.

Claims (5)

PATENT CLAIMS: i. Firing pin detonator for earth mines with a spring-loaded firing pin, which is adjusted by pressing down a spring-loaded cover that extends over it and is then propelled by its suspension against the detonator of the mine, characterized in that when the mine is manufactured in its entirety from non-metallic materials, the cushioning of the firing pin ( io) is effected by non-metallic rods (2o-, 2i, 22) which are resilient in their longitudinal direction and which are pivoted on the detonator housing (2) and are supported in an inclined position on an abutment of the firing pin that when the firing pin is advanced, they are supported around their The ends of the detonator housing are pivoted down and their length compressed until they push the firing pin into the detonator cortr, ibyen after exceeding their maximum shortening. 2. Detonator according to claim i, characterized in that three spring bars (2, 0 ,, 21, 22) are provided, which are distributed at angular intervals of r2o ° around the firing pin and in the rest position with their inner ends ( z 5) after pointing up. 3. igniter according to claims i and 2, characterized in that each -the spring bars one between two fingers (.23, 25) made of non-metallic material located elastic body (z. B. zi) and with the outer end of a Groove (24) in the detonator housing (2), with the inner end (25) in an annular shape Collars (26, 27) formed groove of the firing pin is supported. : 4. Detonator after Claim i., Characterized in that either the detonator housing (-2 or Lid (5) has a screw-enföjrinige groove (16, 17, 18, 19) into which an approach (12, 13, 1d.) Of the other part engages in such a way that the movable cover at its axial movement must also perform a rotary movement at the same time. 5. Detonator according to claim .1, characterized in that the cover. (5) by one in his Perimeter engaging, preferably axially located connector (30) is secured. Dressed Publications: German Patent No. 722 d39.